Scientists Solve a Deepwater Horizon Mystery

What was that odd flotsam that appeared after the Gulf oil spill?

January 19, 2012Right after the Deepwater Horizon oil rig exploded April 20, 2010, marine scientist Monty Graham from the Dauphin Island Sea Lab in Alabama began exploring Gulf of Mexico waters to document the unfolding consequences of the unprecedented oil spill.

“Following the blowout, we were going out on the water every other day or so,” he said, to collect water samples and make observations. On May 5, about 32 miles south of the Alabama coast, they observed something strange.

“The water was flat, glassy calm,” Graham said. “We started seeing these weird objects bobbing in the water—odd white things with an oily halo in the water around them.”

But there was no trace of the wide oil slick on the ocean surface that was spreading out in all directions from the sunken Deepwater Horizon site. Some 50 relatively small pieces of the mysterious white flotsam, interspersed with sargassum weed, extended in an east-west line for 6 miles. Graham and colleagues collected samples, the largest about the size of a softball. The material was hard but porous and uniformly embedded with black spheres less than a half-inch in diameter.

Two days later, the researchers collected similar samples about 25 miles south of Dauphin Island. Nobody knew what the material was. Some speculated it came from Deepwater Horizon; others hypothesized that it could be coral or another substance made by marine plants or animals.

Graham sent a few pieces of the material to Chris Reddy, a marine chemist at Woods Hole Oceanographic Institution (WHOI), where Reddy and colleagues determined that the material was a manmade, not natural, substance. The WHOI scientists then analyzed the oil on the debris using comprehensive two-dimensional gas chromatography, a technique that can identify the thousands of individual chemical compounds that comprise different oils from different reservoirs. The chemical “fingerprint” of the oil on the debris matched that of oil from Deepwater Horizon. Still, the researchers did not know what the material was or where it came from.

Chemists/detectives

In April 2011, Reddy and WHOI researcher Catherine Carmichael visited the Dauphin Island Sea Lab, where Graham showed them other samples of the weird debris of various sizes that he had collected, including one he collected Jan. 19, 2011, on Elmer’s Beach, Grand Isle, La. These samples did not have any oil on them, heightening the mystery.

A few days later, Reddy and Carmichael traveled to the Chandeleur Islands off Louisiana to look for samples of Deepwater Horizon oil that mixed with sand to create what they called sand patties on the beaches there. Partially buried in the sand were several large pieces of the honeycomb debris, ranging from 3 to 10 feet.

“The cleanup teams and officials on the Chandeleur Islands told us that the material was from the Deepwater Horizon and that the Coast Guard had taken some of the larger pieces away,” Reddy said.

The chemists turned gumshoes. “I contacted the Coast Guard to hunt down somebody who could confirm that these big pieces of honeycomb came from the Deepwater Horizon, but I had no luck,” Reddy said. The evidence remained anecdotal.

Then the researchers took another look at photos they had taken of the debris on the Chandeleur Islands. On one large piece, they saw a weathered red–and-white sticker with a name on it—“Cuming”—and several numbers that were partially worn away but still legible: “75-1059.”

The clue became the smoking gun. Reddy found a company called Cuming Corporation in Avon, Mass., which manufactures syntactic foam flotation equipment for the oil and gas industry. Reddy e-mailed the company, and within hours, a Cuming engineer confirmed from the serial number that the debris came from material used to help maintain buoyancy for the pipe conveying oil from the Macondo well at the seafloor to the Deepwater Horizon oil rig on the surface of the Gulf.

A bonus scientific finding

“We realized that the foam was released into the environment at the time of the explosion,” Reddy said. “So we had a unique tracer that was independent of the oil itself to chronicle how oil and debris drifted out from the spill site.”

That sent the research into a new direction. The scientists combined the locations of where Graham and colleagues found honeycomb debris on May 5 and 7 with daily forecasts produced by the National Oceanic and Atmospheric Administration (NOAA) of the trajectory of the spreading oil slick. NOAA used a model that incorporated currents and wind speeds, along with data from planes and satellites. On both days, the debris was about 6.2 miles ahead of the projected trajectory of the spreading slick.

The explanation, the scientists said, is the principle of leeway, a measure of how fast wind or waves push materials. The leeway for fresh oil is 3 to 3.3 percent, but the scientists suspected that “the protruding profile of the buoyant material” acted like a sail, allowing wind to drive it faster than and ahead of the floating oil.

In this case, the flotsam served as a harbinger for the oncoming slick, but because different materials can have different leeways, oil spill models may not accurately forecast where oiled debris will head. “Even a small deviation in leeway can, over time, result in significant differences in surface tracks because of typical wind fields,” the scientists wrote in a study published online Jan. 18, 2012, in Environmental Research Letters.

The Coast Guard has a long history of calculating the leeway of various materials, from life jackets to bodies of various weights, to improve forecasts of where different objects would drift if a ship sank or a plane crashed into the sea. But calculating leeways has not been standard practice in oil spills.

“We never had solid data to make the case until this study,” said Merv Fingas, who tracked oil spills for more than 38 years for Environment Canada, which is equivalent to the U.S. Environmental Protection Agency.

“These results,” the study’s authors wrote, “provide insights into the fate of debris fields deriving from damaged marine materials and should be incorporated into emergency response efforts and forecasting of coastal impacts during future offshore oil spills.”

Along with Carmichael, Reddy, and Graham (now chair of The University of Southern Mississippi’s Department of Marine Science ), the research team included J. Samuel Arey from the Swiss Federal Institute of Technology, Laura Linn of the Dauphin Island Sea Lab, and Karin Lemkau and Robert Nelson from WHOI.

This research was funded by the National Science Foundation.

Two weeks after the Deepwater Horizon oil spill, marine scientist Monty Graham and colleagues at the Dauphin Island Sea Lab saw a 6-mile-long line of small pieces of mysterious white material floating in the Gulf of Mexico. The material was hard but porous and uniformly embedded with black spheres less than a half-inch in diameter. (Tom Kleindinst, Woods Hole Oceanographic Institution)

To help determine what the mysterious floatsam was, Graham contacted Chris Reddy, a marine chemist at WHOI, and gave him samples of it. He and research assistant Catherine Carmichael (above) visited Graham while they were scouring beaches in the Gulf collecting samples of oil from Deepwater Horizon. (Photo by Chris Reddy, Woods Hole Oceanographic Institution)

Back in their lab at WHOI, the scientists analyzed the oil on the debris using comprehensive two-dimensional gas chromatography, a technique that can identify the thousands of individual chemical compounds that comprise different oils from different reservoirs. The chemical “fingerprints” of the oil on the debris and the oil from Deepwater Horizon matched. Still, the researchers did not know what the material was or where it came from. (Courtesy of Bob Nelson, Woods Hole Oceanographic Institution)

WHOI researcher sCatherine Carmichael and Chris Reddy saw larger pieces of the honeycomb debris (including this one coated with barnacles) on the Chandeleur Islands off Louisiana. Cleanup teams and officials told them the material was from the Deepwater Horizon, but that evidence was anecdotal. (Photo by Chris Reddy, Woods Hole Oceanographic Institution)

The WHOI researchers took a close look at photos they had taken of the debris on the Chandeleur Islands and found this weathered sticker, which proved to be the "smoking gun" that cracked the case. (Catherine Carmichael, Woods Hole Oceanographic Institution)

Officials used a model that incorporated currents and wind speeds, along with data from planes and satellites, to predict a trajectory of the oil slick spreading from the Deepwater Horizon oil rig. Shaded area represents the predicted trajectory on May 7, 2010. But predictions are not exact; the dotted line represents the degree of uncertainty for the prediction. The mysterious debris was found about 6.2 miles ahead of the projected trajectory of the spreading slick. (Map adapted from NOAA/NOS/OR&R Trajectory Forecast Mississippi Canyon 252) (Illustration by Jack Cook, Woods Hole Oceanographic Institution)

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